View clinical trials related to Dyslexia.
Filter by:This project aims to explore the feasibility and efficacy of a 6-week, intensive summer literacy intervention provided to children in 1st-3rd grades.
The purpose of the proposed study is to use transcranial magnetic stimulation (TMS) to evaluate a neurobiological model of spoken word learning in older youth. Specifically, it is hypothesized that: (1) inhibition of the left dorsal stream will impact subsequent learning, processing, and retention of phonologically similar pseudowords; (2) the impact of dorsal stream inhibition on word learning will be associated with baseline levels of variability in neural activity, indicative of underlying differences in cortical excitability.
Investigators compare effects of 6-month music versus circus group interventions on language development in infants and toddlers with or without familial risk for dyslexia (anticipated total N=200). Effects of intervention timing, dyslexia risk and genetics, and social-emotional factors on the intervention outcomes are investigated.
The goal of the proposed project is to test the effectiveness of a novel hybrid approach to treatment of reading disorders after stroke, in which exercise training will be used in combination with a targeted reading treatment. This approach is expected to increase cerebral circulation and help to rebuild and strengthen the damaged phonological neural networks. Through this combinatory approach, the study aims to enhance the reading and language improvements seen with existing treatments.
Developmental dyslexia affects 7% of school-age children (Male:Female ratio of 1.5:1) and incurs disadvantages in education and occupation. Scientific progress concerning the etiology of developmental dyslexia evidenced the complex gene-environment interaction. The DCDC2-READ1 deletion associates with reading skills and affects the magnocellular-dorsal stream in humans and animals. DCDC2 modifies neural activity within the excitatory pathways. The magnocellular-dorsal stream mediates the function of the attention network. Difficulties in spatial and temporal attention shifting impair letter-to-speech sound integration increasing neural noise. Action video games improve the efficiency of the magnocellular-dorsal stream. The aim of this cutting-edge, round trip translation study is threefold: 1.to unravel new insights behind the pathophysiology of developmental dyslexia, 2. to assess gene-environment interaction effects on developmental dyslexia endophenotypes, and 3. to identify useful clues to foster the identification of new, personalized treatments.
Studies of dyslexia have shown altered oscillatory activity in the low gamma band (~25-35 Hz) in the left auditory cortex. Neural oscillations around 30 Hz constitute the basic sampling rate of speech, from which the ability to form specific phonemic categories on which reading learning is based is derived. An alteration of the oscillatory activity at 30 Hz could therefore influence the ability of children to learn to read, and explain the reading deficit observed in children with a specific written language disorder. The objective of our study is to determine whether intensive rhythmic auditory stimulation applied during 30 sessions of 15 minutes spread over 6 weeks (5 sessions per week) can correct neural oscillations in the gamma-low band, allowing an improvement of phonemic categorization abilities, and thus the reading abilities of dyslexic readers aged 7 to 9 years. The long-term objective of this study is to test the therapeutic potential of auditory stimulation with speech rhythms for the treatment of reading disorders.
The present study grounds on the absence of evidence-based treatment in individuals with developmental dyslexia (DD). At this topic, the present study will explore the potential effect of transcranial direct current stimulation (tDCS) over left hemispheric direct Lateral Geniculate Nucleus (LGN)-V5/MT pathway, cerebral areas usually disrupted in individuals with DD. The investigators hypothesized that active tDCS over V5/MT will boost reading skills in children and adolescents with DD. On the contrary, sham (placebo condition) tDCS over V5/MT or active (control condition) tDCS over V1 will not have significant effect in improving reading skills. Further, both active and sham tDCS will be safe and well tolerated.
Dyslexia is the most common neurobehavioral disorder affecting children, with prevalence rates ranging from 17.5% to 21%. Studies have shown incomplete response to remediation and behavioural therapies in children with dyslexia. Evidence from neuroimaging studies as well as neuromodulation studies supporting a neurobiological basis of dyslexia is extensive according to which under-activation and poor connectivity in the underlying pathways for language and reading is the primary pathophysiology underlying reading difficulties. Evidence from studies on neuromodulation have shown that by combining remedial intervention with neuromodulation there is a synergistic effect through the mechanism of long term potentiation. In view of the above mentioned our study aims to investigate the role of Hf rTMS as an adjunct to AI enabled remedial intervention in children with dyslexia in improving their reading abilities.
Recent claims report that reading ability is partially dependent on speech production. While the evidence for this claim is compelling, it is not known to what extent, the speech production system contributes to successful reading performance in adult populations with dyslexia. One direct way to determine the influence of speech production feedback on reading performance is to measure reading performance in adults with dyslexia with an added motor component (i.e., sucking on a lollipop, holding a bite bar or numbing their oral mucosa with lidocaine). To adults with and without dyslexia 18 years of age and older (60 in total; 30 in each group), three experimental tasks will be administered under four conditions (no motor task, lollipop, bite bar and lidocaine). The first task asks whether the letter string being presented is a word or a nonword. Secondly, a motor sequencing task will be administered where adults will be asked to label pictures. For all tasks, the accuracy and speed of responses will be measured by a computer while participants wear a fNIRS cap.
The aim of this study is to evaluate a novel tablet game-based neurodevelopmental assessment tool for young children aged 3 to 8 years old. The study's main aims are: (1) to determine whether the novel tablet-game based assessment tool can accurately differentiate children's neurodevelopmental status based on their performance on the game and (2) assess the validity of the game-based neurodevelopment assessment tool. The study aims to recruit 590 children who are 'typically' developing and/or have a diagnosed neurodevelopmental disorder including Attention Deficit Hyperactivity Disorder (ADHD), Autism Spectrum Disorder (ASD), Specific Learning Disorder, or a Communication Disorder. All participants will complete the tablet game-based assessment which aims to assess a range of neuropsychological functions including attention, memory, language, motor, executive functions and social-emotional skills. Parents/carers of participants will also complete a demographic questionnaire and the Adaptive Behaviour System - Third Edition (ABAS-3), which is a questionnaire that assesses a child's development. Some participants will be re-tested on the tablet game-based assessment approximately 2 weeks after the first tablet game-based assessment to ensure the game's validity.